Substituted furfurylesters of chrysanthemumic acid

ABSTRACT

THE PRESENT INVENTION RELTATES TO NEW SUBSTITUTED FURFURYLESTERS OF CHR CHRYSANTHEMUMIC ACID WHICH HAVE IMPROVED INSECTICIDAL PROPERTIES SELECTED FROM THE GROU OF 3,4-DICHLORO - 5 - PROPARGYLFURFURYLESTER OF CHRYSANTHEMUMIC ACID, 3,4-DIBROMO-5-CYCLOPENTADIENYL FURFURYLESTER OF CHRYSANTHEMUMIC ACID, 5-ETHOXY-METHYLFURFURLESTER OF CHYSANTHEMUMIC ACID, 3-ACETYL-5-ALLYFURFURYLESTER OF CHRYSANTHEMUMIC ACID, 5-ACETYLFURFURYLESTER OF CHRYSANTHEMUMIC ACID, 3,4 - DICHLORO-5-BENZYLFURFURYLESTER OF CHRYSANTHEMUMIC ACID, 5 - PHENYLVINYLFURFURYLESTER OF CHRYSANTHEMUMIC ACID, 5-PROPARGYLFURFURYLESTER OF CHRYSANTHEMUMIC ACID, 3-METHOXY-5-PROPARGYLFURFURYLESTER OF CHRYSANTHEMUMIC ACID, AND 3-METHYL5-PROPARGYLFURFURYLESTER OF CHRYSANTHEMUMIC ACID.

United States Patent ABSTRACT OF THE DISCLOSURE The present invention relates to new substituted furfurylesters of chrysanthemumic acid which have improved insecticidal properties selected from the group consisting of 3,4-dichloro propargylfurfiurylester of chrysanthemumic acid, 3,4-dibromo-5-cyclopentadienyl furfurylester of chrysanthemumic acid, S-ethoxy-methylfurfiurylester of chysanthemumic acid, 3-acetyl-5-allylfurfurylester of chrysanthemumic acid, 5-acetylfurfurylester of chrysanthemumic acid, 3,4 dichloro-5-benzylfurfutylestet of chrysanthemumic acid, 5 phenyl'vinylfurfurylester' of chrysanthemumic acid, S-propar-gylfdrfurylestr of chrysanthemumic acid, 3-methoxy-5-propargylfurfurylester of chrysanthemumic acid, and 3-methyl-S-propargylfinfurylester of chrysanthemumic acid.

SUMMARY OF THE INVENTION This application is a continuation-in-part of applications Ser. No. 691,173, filed Dec. 18, 1967, now abandoned, and Ser.,No.- 809,036, filed Mar; 20, 1969, now abandoned, which was a divisional of said Ser. No. 691,- 173 and Ser. No. 629,422, filed Apr. 10, 1967.

The present invention relates to an insecticide containing as its active ingredient a substituted furfurylalcohol ester of chrysanthemumic acid selected from the group consisting of 3,4 dichloro-S-propargylfurfurylester of chrysanthemumic acid, 3,4 dibromo-S-cyclopentadienyl furfurylester of chrysanthemumic acid, S-ethoxy-methylfurfurylester of chrysanthemumic acid, 3-acetyl-5-allylfurfurylester of chrysanthemumic acid, S-acetylfurfurylester of chrysanthemumic acid, 3,4-dichloro-5-benzylfurfurylester of chrysanthemumic acid, 5-phenylvinylfurturylester of chrysanthemumic acid, 5-p'ropargylfurfurylester of chrysanthemumic acid, 3-methoxy-5-propargylfurfurylester of chrysanthemumic acid, and 3-methyl-5-propargylfurfurylester of chrysanthemumic acid.

After repeated studies of insecticides containing as their active ingredient an ester of chrysanthemumic acid, the present inventor discovered that the compounds listed above as the insecticidal ingredient of insecticides for dusting and fumigating application are highly effective on agri-v cultural and horticultural plants, and that they have very low toxicity for killing various insects on humans and animals and on warm-blooded animals.

The present invention is based on this discovery. These compounds adopted as the active ingredient of the insecticide of this invention can be easily obtained by reacting the corresponding substituted furfuryl alcohols, its halide or its salts containing the above-mentioned substituents with, say, chrysanthemumic acid, or its halide, anhydride, ester, or its salts, according to the general process for producing ester of chrysanthemumic acid as disclosed in US. patent application Ser. No. 629,422, filed on Apr. 10,, 1967, now abandoned, and Ser. No. 809,036, filed Mar. 20,1969, by the present inventor (now abandoned) described as follows.

3,796,730 Patented Mar. 12, 1974 'icc where X represents a substituent selected from the group consisting of alkyl having 1 to 6 carbon atoms, alkenyl having 2 to 6 carbon atoms, alkynyl having 2 to 6 carbon atoms, phenyl alkyl having 1 to 6 carbon atoms in the alkyl group, alkoxy having 1 to 6 carbon atoms, alkenyloxy having 2 to 6 carbon atoms, alkoxyalkyl having 2 to 12 carbon atoms, alkenyloxyalkyl having 3 to 12 carbon atoms, RCO- where R-standsfor an aliphatic hydrocarbon or phenyl having 1 to 6 carbon atoms, alkoxyalkoxyalkyl having 3 to 18 carbon atoms, cyclopentadienyl, halogen, nitro, and amino; and n is an integer selected from 1 to 3, having an extremely strong insecticidal effect on insects, particularly on Araeopidae, Jassidae and Aphididae, can be manufactured by the following methods:

l) A substituted furfurylalcohol as expressed by the following formula:

0-. HOmC-U-Qm where-X represents a substituent selected from the group consisting of alkyl having 1 to 6 carbon atoms, alkenyl having 2 to 6 carbon atoms, alkynyl having 2 to 6 carbon atoms, phenyl alkyl having 1 to 6 carbon atoms, alkoxy having 1 to 6 carbon atoms, alkenyloxy having 2 to 6 carbon atoms, alkoxyalkyl having 2 to 12 carbon atoms, alkenyloxyalkyl having 3 to 12 carbon atoms, RCO- where R stands for aliphatic hydrocarbon or phenyl having 1 to 6 carbon atoms, alkoxyalkoxyalkyl having 3 to 18 carbon atoms, cyclopentadienyl, halogen, nitro, and amino; and n is an integer selected from 1 to 3, is reacted with chrysanthemumic acid or its functional derivative salts and esters which react to liberate chrysanthemumic acid for this reaction. The above-mentioned substituted furfurylalcohol can be treated with an alkali metal such as sodium or potassium, and then, as an alcoholate, may be reacted with the above-mentioned chrysanthemumic acid or its functional derivative.

' acid with chrysanthemumic acid or its ester.

a so

mides; acid anhydrides; esters such as methyl ester, ethyl ester-,-etc.; and salts such as 'alkalimetal salts, silver salts,

yl-S-allyl furfnryl alcohol; 3,4-dichloro--ethyl furfuryl (l) 3,4-dichloro-5-propargylfurfurylester of chrysanthemumic acid (2) 3,4 dibromo 5 cyclopentadienylfurfurylester of chrysanthemumic acid (3) 5 ethoxymethylfurfurylester of chrysanthemumic acid (4) 3-acetyl-5-allyloxyfurfurylester of chrysanthemumic acid (5) 5 allyloxymethylfurfurylester of chrysanthemumic acid (6) 3,4 dimethyl-5-allylketofurfurylester of chrysanthemumic acid (7) 3-acetyl-5-allylfurfurylester of chrysanthemumic acid (8) S-acetylfurfurylester of chrysanthemumic acid (9) S-methoxyallylfurfurylester of chrysanthemumic acid (10) 5 allyloxyvinylfurfurylester of chrysanthemumic acid (11) 3,4 dichloro-5-benzylfurfurylester of chrysanthemumic acid l2) S-phenylvinylfurfurylester of chrysanthemumic acid (13) 3-methyl-5-methylketoallylfurfurylester of chrysanthemumic acid (14) 5-methoxypropoxymethylfurfurylester of chrysanthemumic acid (15) S-propargylfurfurylester of chrysanthemumic acid (16) 3-methoxy-5-propargylfurfurylester of chrysanthemumic acid (17) 3-methyl-5-propargylfurfurylester of chrysanthemumic acid.

These esters according to this invention, when practically employed as the active ingredients in insecticidal sprays, are usually blended with some suitable conventional insecticidal carrier and may be used in the form of a powder, wettable powder, tablets, solution, emulsion, aerosol, etc.

. For instance, these esters can be evenly mixed with granular inert carriers such as talc, clays, bentonite, kaolin, and diatomaceous earth, and made into a wettable powder.

Or they may be mixed with both the above-mentioned granular inert carriers and with surface-active agents; and then kneaded and crushed into a wettable powder.

They may also be dilute with the above-mentioned inert carriers mixed with starch, sodium alginate, or natural binders such as CMC or PVA; and then stamped into tablets. Adequate quantities of these esters may also be dissolved in such solvents as kerosene to form solutions. These esters may likewise be disolved in such solvents as xylol, benzene, etc., mixed with a surface-active agent, and made into emulsions.

In addition, they may be dissolved with other insecticides, adjuvants, perfumes, etc., in kerosene and the resulting aerosol may be compressed with a pressure vessel and sealed therein together with such propellants as Freon, vinylchloride, LPG, etc. so as to produce aerosol preparations.

for fumigation, they can be mixed with some appropriate base such as powdered wood and used in the form of mosquito incense sticks. If they are to be used as insecticides for heating and evaporating use, they are dissolved in, say, white kersosene and the resulting solution is con- When these esters are to be employed as insecticides tinuously fed onto the evaporating surface of an electric heater or said solution is absorbed into a carrier consisting of a nonin-flammable material such as asbestos and the resulting product heated on an electric heater.

The concentration of these esters in the insecticides according to this invention depends on the form of preparation, the manner of use, the objective of use, etc. The preferred range of concentration would be 0.0560%. However, their concentration is not necessarily limited to this range, but may be varied over a wider range. For long time use, a low concentration is preferred, while for short time use a high concentration may be possible.

Moreover, the insecticidal power of said esters of chrysanthemumic acid will be further enhanced, when they are combined with such 'synergists as N-octylbicycloheptenedicarboxyamide; mixtures of N-octylbicycloheptenedicarboxyimide and the isopropylamine salt of dodecyl benzene sulfonic acid; octachlorodipropylether; piperonylbutoxide; etc.

Some illustrative examples of the synthesis of the substituted furfurylesters of chrysanthemumic acid will now be given.

EXAMPLE 1 2.2 g. of 5-allylfurfurylalcohol is dissolved in 15 ml. of dry benzene and the resulting substance is mixed with 3 g. of chrysanthemumic acid chloride dissolved in dry benzene, and with 2 ml. of dry pyridine as a condensation agent. This procedure yields crystals of pyridine hydrochloride. These crystals are scaled up and left at room temperature overnight, and the pyridine hydrochloride is then separated by filtering. The benzene solution is then washed successively with aqueous sodium bicarbonate, dilute hydrochloric acid and water. When this benzene solution is dried and then condensed in a nitrogen flow under lowered pressure at a low temperature (below 50 C. of both temperature), 4 g. of viscous, transparent 5-allylfurfurylester of chrysanthemumic acid is obtained. The yield isalmost constant, boiling point being 129- 130 C./0.35 mm. Hg, n 1.4948.

EXAMPLE 2 In the same was as Example 1, 4.5 g. of S-propargylfurfurylalcohol is reacted with 7 g. of chrysanthemumic acid chloride, producing 8.1 g. of 5-propargylfurfurylester of chrysanthemumic acid. B.P. 130-133 C./O.2 mm. Hg.

EXAMPLE 3 In the same was as Example 1, 2.5 g. of S-acetylfurfurylalcohol is reacted with 5.5 g. of chrysanthemumic acid bromide producing 4.3 g. of S-acetylfurfurylester of chrysanthemumic acid. B.P.: 126-130 C./0.25 mm. Hg.

EXAMPLE 4 EXAMPLE 5 A thermometer, a reflux-condenser and a tube for introducing nitrogen are attached to a ml. round-bottomed flask, into which 4.3 g. of S-ethoxymethylfurfurylpropyonate and 4.0 g. of chrysanthemumic acid are poured and thoroughly mixed for 30 minutes. Next, 0.15 ml. of

M concentrated sulphuric acid is dropped into the mixture.

The mixture is refluxed for three hours, and sodium acetate is added to neutralize the sulphuric acid. It is then dissolved in ether. The resulting ether solution is successively washed with dilute hydrochloric acid, aqueous sodium carbonate and aqueous sodium chloride, then dried using Glaubers salt, and after the ether is distilled away, the solution is distilled under reduced pressure, producing 3.1 g. of S-ethoxymethylfurfurylester of chrysanthemumic acid. B.P.: 132-134 C./0.1 mm. Hg.

The following examples illustrate some of the insecticidal effects of the substituted esters of chrysanthemumic acid of this invention.

Test (1) spraying test A 0.5% white kerosene solution of test insecticide was applied on house flies in accordance with the modified Campbell and Sullivans metal turn table method and from the knock down rate of the flies, the relative efi'ectiveness of insecticides have been calculated. The number indicated in the column of test insecticides corresponds to that mentioned in the said enumeration of esters as active ingredient.

Test insecticides Probit 4 Probit 5 Probit 6 3% white kerosene solution of furfurylesters of chrysanthemumic acid 1. 00 1. 00 1. 00

Test (2) fumigation test All of the compounds mentioned as the active ingredient of this invention have high vapor pressure and accordingly can be vaporized more easily by heating than the conventional pyrethroids.

Therefore, less subject to thermal decomposition and giving an extremely high rate of dispersion, said compounds exhibit a notably remarkable eifect in a mosquito incense coil (electric mosquito incense, as provisionally called) which must be heated to be eifective.

When the conventional pyrethroids like natural pyrethrin or allethrin are used in the vaporizer such as a mosquito incense coil or an electric mosquito incense, the dispersion rate of the active ingredient is a mere 15% or so, the greater part of the balance failing to be dispersed in the air. By contrast, when a mosquito incense coil was manufactured using the active ingredient of this invention in accordance with the traditional method, the dispersion rate of the active ingredient as measured in its smoke amounted to 30-40%. Meanwhile, when the same active ingredient was impregnated into a base mat or was absorbed on an appropriate extending agent and molded or was dissolved into a solvent and was then heated and vaporized by an adequate heater, this being the so-called electric mosquito incense process, as good a dispersion rate as in the case of a plain mosquito incense coil could be secured.

This shows that the active ingredient of this invention, when applied under fumigation and heating, can exhibit a particularly excellent insecticidal effect by its superb power and its high dispersibility. Thereby, it is possible to use the present active ingredient together with the conventional pyrethroids to obtain a synergistic effect and enhance the significance of this invention.

Some illustrative insecticide compositions of this invention are listed below.

EMMPLE 6 0.2 part of 3-acetyl-5-allylfurfurylester of crysanthe mumic acid was dissolved in white kerosene, producing a 0.2% kerosene preparation with the whole solution as parts.

EXAMPLE 7 A kerosene preparation was obtained by dissolving 0.3 part of 3-methyl-5-propargylfurfurylester of crysanthemumic acid and 0.9 part of piperonylbutoxide into white kerosene, making 100 parts of the whole solution.

EXAMPLE 8 A mosquito incense coil containing 0.5% active ingredient was prepared in accordance with a known process by uniformly blending 0.5 g. of 5-propargylfurfurylester of chrysanthemumic acid with 99.5 g. of a carrier base material like extract powder of pyrethrum, wood powder, starch, etc.

EXAMPLE 9 A mosquito incense coil containing 0.4% active ingredient was prepared in accordance with a known process by uniformly blending 0.4 g. of 5-propargylfurfurylester of chrysanthemumic acid and 1.0 g. of a mixture (trade name: MGK-5026) with 98.6 g. of a carrier base material like extract powder of pyrethrum, wood powder, starch, etc.

EXAMPLE 10 A mosquito incense coil was prepared using 0.3 g. of allethrin, 0.4 g. of 3-methoxy-5-propargylfurfurylester of chrysanthemumic acid and 99.3 g. of base material.

What is claimed is:

1. A substituted furfurylester of chrysanthemumic acid selected from the group consisting of 3,4-dichloro-5-propargylfurfurylester of chrysanthemumic acid, 3-acetyl-5- allylfurfurylester of chrysanthemumic acid, 5-propargylfurfurylester of chrysanthemumic acid, 3-methoxy-5-propargylfurfurylester of chrysanthemumic acid, and 3- methyl-S-propargylfurfurylester of chrysanthemumic acid.

2. The compound of claim 1 which is 3,4-dichloro- S-propargylfurfurylester of chrysanthemumic acid.

3. The compound of claim 1 which is 3-acety1-5-allylfurfurylester of chrysanthemumic acid.

4. The compound of claim 1 which is 5-propargylfurfurylester of chrysanthemumic acid.

5. The compound of claim 1 which is 3-methoxy-5- propargylfurfurylester bf chrysanthemumic acid.

6. The compound of claim 1 which is 3-methyl-5-propargylfurfurylester of chrysanthemumic acid.

References Cited UNITED STATES PATENTS 3,465,007 9/ 1969 Elliot 260--347.4

DONALD G. DAUS, Primary Examiner B. DENTZ, Assistant Examiner US. Cl. X.R. 

